PRECISION ENGINEERING
Superior Materials. Disciplined Manufacturing.
Asterope cable systems are engineered to support signal and control pathways across advanced aircraft platforms, from box-level interconnects to distributed airframe routing.
Our focused product suite reflects disciplined material selection, conductor geometry optimization, and ETFE/FEP insulation strategies designed to address the most common integration requirements in modern aerospace architectures, balancing electrical consistency, mechanical durability, and environmental resilience in a streamlined set of configurable solutions.
“Test data indicates that Asterope’s avionic products provide greater EME/EMI protections, increased throughput, signal integrity and reduced Bit Error Rate (BER) resulting in greater communication performance over longer distances. In addition Asterope’s unique material selections provide more reliable mechanical and thermal resilience, resulting in enhanced safety and performance, reducing heat, and weight, which collectively extend aircraft lifecycle efficiencies.”
ASTEROPE’S CORE PRODUCT LINES
ETFE and FEP -Jacketed Aerospace Cable Systems
Available configurations include:
• 16–24 AWG
• Shielded and unshielded variants
• 1, 2 and 4C variants
• Application-specific builds
All products are designed for integration within aerospace systems requiring consistent electrical performance and mechanical reliability.
Custom Engineering Support
Asterope USA collaborates with OEMs and integrators to support:
• Prototype development
• Performance evaluation
• Application-specific modifications
• Integration planning
Why Asterope
Asterope Aerospace wire and cable are engineered to address signal integrity, attenuation control, and mechanical durability challenges within modern aerospace electrical systems. Independent testing conducted by Lectromec Labs evaluated electrical, mechanical, and environmental performance characteristics of ETFE and FEP jacketed configurations.
Risk Management & Safety
Advanced material selection, disciplined build geometry, and optimized physical performance directly support weight reduction, improved signal stability, and enhanced mechanical resilience. These factors reduce systemic risk, increase operational safety margins, and extend life-cycle endurance across aerospace platforms.
Materials & Construction
Asterope utilizes ETFE and FEP insulation systems selected for thermal stability, abrasion resistance, chemical resilience, and long-term dielectric consistency within aerospace harness environments. Conductor geometry and build precision are optimized to support predictable electrical behavior across extended runs.
Performance Validation
Lectromec testing evaluated attenuation behavior, dynamic cut-through resistance, flammability performance, UV markability, and related electrical characteristics. Results demonstrated controlled signal loss, confined flame response, and consistent identification performance—supporting reliability in avionics and signal pathways.
System-Level Impact
Measured electrical performance may reduce dependence on additional inline signal conditioning components in certain architectures. Improved attenuation behavior and EMI resistance support cleaner data transmission, reduced thermal accumulation, and more stable long-term system performance.
Manufacturing Discipline
Production processes prioritize dimensional consistency, material integrity, and repeatability to support aerospace supplier integration requirements.
Risk Reduction with Weight and Cost Efficiency
Refined conductor geometry and benchmarked ETFE/FEP materials deliver measurable electrical and mechanical performance validated through independent testing.